DE2431088A1 - Roadstone breaker on wheels - wheels steered by mechanism separate from retracting mechanism - Google Patents

Abstract

A roadstone braker is carried on sixteen pairs of wheels: eigth pairs either side, of which six pairs can be driven and two braked. The wheels can be retracted to stand the machine on its three feet during operation, and they can be turned for steering during movement. The wheels are steered by a pair of double-ended cylinders (30, 31) whose pistons carry toothed rods acting on a vertical axle (22). This system is separated completely from the wheel suspension (19, 20) and its retraction cylinder (24). All the movements are made by hydraulic pressure communicated through pipes under an electronic control which compares measured and pre-set values.

Description

Ortsverind- & rliche crushing plant is the subject of the invention a mobile crushing plant with a movable substructure, its feet can be raised from the floor by adjusting means and lowered onto it .inA and from its Wheels at least partially pivotable about vertical axes by steering devices and at least a part can be driven.

In crushing plants of this type, high crushing capacities are crucial Make sure that you have good mobility to move your position in as much as possible to be able to change in a short time. A complicating factor for this desired mobility is that these crushing plants have to work mainly in very difficult terrain.

In addition to crushing plants with walking and crawler tracks, they are known even those on wheels. In a well-known, on rubber-tired cattle movable crushing plant (DT-Gbm 7 415 569 / 50c, 171 °) are the bearings of the wheel axles attached to the piston rods of vertical cylinder-piston systems, which the actuating means for lifting the feet of the substructure off the floor and for leveling out uneven floors form.

The steering devices also engage in these piston rods Form of paired, horizontal cylinder-piston systems, on the one hand are fixed to the substructure and, on the other hand, to the wheel axle bearings. The vertical piston rods the actuating means are therefore not only a force-transmitting organ for this in the sense a vertical displacement of the wheels relative to the substructure or to lift off the Feet of the substructure from the ground, but at the same time also a force-transmitting member for the steering devices of the system for swiveling the wheels about vertical axes, are therefore common to the steering devices and the actuating means. As a result of this dual function the piston rods are relative to their cylinders so also relative to them her cylinder seal I tings with every steering process by the steering forces turned.

This causes the cylinder seals to wear out very quickly Consequence, what with the high-pressure hydraulics provided here with regard to their functional reliability is very disadvantageous. This seal wear is increased by the bending forces, which in the known crushing plant via the wheel axles acting as one-armed levers act on the individual piston rods and result from the wheel pressures. Unfavorable is also with the known suspension that the wheels only up to a maximum of 150 can be taken when steering, because this firstly has a large final circle and secondly, it makes it impossible to turn the system on the spot.

The object of the invention is to provide the chassis for mobile To improve crushing plants of the type mentioned that the piston rods the adjusting means and their cylinder seals remain free of bending forces on the one hand and on the other hand with the steering movements or when pivoting the wheels relative to the cylinder seals are not rotated. Based on the knowledge that a Impairment of the cylinder seals can only be avoided if the Piston rods of the actuating means do not have a dual function, that is, not at the same time are also a torque-transmitting element, this object is achieved according to the invention solved that the adjusting means for raising and lowering the feet and the steering devices are designed as separate units for pivoting the wheels.

On the one hand, a good adaptation of the chassis to the respective To achieve ground conditions and, on the other hand, a favorable, symmetrical application of force To ensure the actuating means on the piston rods are according to another feature According to the invention, the wheels are mounted in pairs on pendulum axles and the actuating means are indirect arranged attacking the pendulum axles, each pendulum axle as A hydraulic cylinder-piston system is assigned to actuating means. One both for the arrangement of the bending devices as well as the accommodation of the adjusting means space-saving and favorable construction with regard to the application of force is achieved here according to the further invention in that for each bending device a vertical, is provided fixed in the substructure axis on which a support is rotatably arranged is on which a lever is pivotably mounted, which takes up the pendulum axis, one end of which is associated with the cylinder-piston system is hinged to the carrier and at its other end to the lever. So that the crusher only a comparatively small turning circle is required for turning and, moreover, on the point can turn, the steering devices are in a further embodiment of the invention designed to swivel the wheels or their pendulum axles up to 1800.

Based on an embodiment shown in the drawing the invention is explained in detail.

1 shows a schematic side view of a mobile crushing plant according to the invention, FIG. 2 shows a section from the substructure of the crushing plant Fig. 1, but in a simplified structural design and Fig. 3 is a side view of the section according to FIG. 2.

The crushing plant. is essentially made up of a movable substructure 1, a scaffolding structure 2, a crusher 3, a feed belt 4 with a feed chute 5 as a feed conveyor for the crushed material, a discharge belt 6 as an intermediate conveyor, a Transfer funnel 7 and a delivery belt 8 designed as a swivel belt with discharge funnel 9, the forms the conveyor for the broken material.

The substructure 1 comprises a support frame designed as a welded construction 10 with three feet for setting up the system on the floor during crushing operation, namely two parallel, in the longitudinal direction of the support frame 10 extending Longitudinal stand feet 11 and a transverse stand foot extending transversely to the support frame 10 12, as well as with sixteen sets of wheels 13, on which the system rests during the process. The wheel sets 13 have rubber-tyred wheels 14, which are sixteen in pairs Pendulum axles 15 are arranged. The wheels 14 of all wheel sets 13 are steerable educated; the wheels 14 of twelve sets of wheels 13 are driven, namely in the The first three and the last three in succession on each long side of the support frame 10; the wheels 14 of four sets of wheels 13, namely those of the two innermost Wheel sets 13 on each longitudinal side of the support frame 10 can be braked.

As can be seen in FIGS. 2 and 3, the two wheels 14 are each Set of wheels 13 arranged on the ends of their symmetrically designed pendulum axle 15, which with the help of its self-aligning bearing 16 is supported in a pendulum fashion on a bearing pin 17 is. The pendulum axle 15 is composed of several assemblies, compact Unit designed and includes, in addition to the self-aligning bearing 16, a hydraulic wheel drive 18, gearbox, a pair of brake drums with internal shoe brakes, corresponding bearings, Shafts and axles as well as the rims of the wheels 14. The pendulum axle 15 is what yours structural design concerns in detail, known and not the subject of the invention.

The bearing pin 17, which receives the pendulum axis 15, is part a one-armed lever forming rocker 19, which is pivotable on a is mounted on a carrier 20 attached axle 21. The carrier 20 is in turn rotatably mounted on a vertical pivot pin 22, which is firmly connected to a double bracket 23 welded to the support frame 10.

As an adjusting means for raising and lowering the feet 11, 12 of the substructure 1 hydraulic cylinder-piston systems 24 are provided, of which each wheel set 13 or each pendulum axle 15 is assigned one each. The cylinder 25 each of these Cylinder-piston systems 24 are attached to the carrier 20 and its piston rod by means of bolts 27 26 fixed in a pivotable manner on the rocker 19 by means of bolts 28. The cylinders 25 All cylinder-piston systems 24 are, as is usual with such undercarriages is hydraulically connected to each other in groups in order to achieve hydraulic axle load compensation, that means to achieve constant axle pressure when driving through depressions in the ground. As is known, all cylinders 25 are jointly controlled by a hydraulic transmitter, for example a controllable high pressure pump, such as one Axial piston pump, fed with hydraulic working fluid, for example hydraulic oil.

To steer the crusher when moving from a job to another serve steering devices 29, which the wheels 14 around the imaginary Pivot the longitudinal axes of the pivot pin 22 and one of which is provided for each wheel set is. The single steering device 29 consists of two fastened to one Unit connected hydraulic cylinder-piston systems 30,31 and a mechanical Transmission. The cylinder-piston systems 30,31 are each arranged by two coaxially Cylinders 32,33 and a common double plunger piston 34 are formed and are fixed attached to the double console 23. The assigned mechanical transmission has a coaxial with the pivot 22 and on the hub 20a of the carrier 20 non-rotatably arranged gear 35 and two rack segments 36,37 which are placed diametrically opposite one another on the gear 35 and their teeth are engaged with the latter. One 2s gment 36 is closed in terms of movement one Unit connected to the double plunger piston 34 of the cylinder punching piston:; Jstems 21, the other ZahnGMigment 37 in the same way with the double plunger piston 34 of the cylinder-piston system O. To feed the cylinders 32, 33 of the two cylinder and piston systems 30, 31 of the steering devices 29 with hydraulic work equipment is also used for the actuating means in Form of the cylinder-piston systems 24 provided, not illustrated transmitter, the Hydraulically connected to the cylinders 32, 33 via appropriate pipelines is. The loading of the cylinders 32,33 of the individual steering devices 29 with hydraulic work equipment takes place according to the desired travel movement of the Crushing plant different, what with the help of electromagnetically at the saturated valves, which between the cylinders 32,33 and the associated encoder in the pipelines are inserted and electronically controlled depending on the steering wheel angle. In this known control which is not part of the subject matter of the invention the steering positions of the steering wheel are electronically converted into target values, which is entered into a comparison unit and there with from the actual positions of the Actual values resulting from pendulum axes are compared; the comparison values obtained are converted into corresponding control variables or control signals, with their help then the steering devices in relation to the respective swivel angle or turning of the wheels 14 can be controlled.

With the said pivoting of the pendulum axles or the steering movements rotates the individual wheel set 13 about the pivot pin 22 or its longitudinal axis. The actuators for raising and lowering the feet 11, 12, i.e. the cylinder-piston systems 24, While pivoting with it, their piston rods 26 experience, however, thanks to the invention Separation of steering devices and actuating means with regard to the force-transmitting ones SteAlglieder as a result, in contrast to the known chassis arrangement, no relative movement with respect to the seals of their cylinders 25, thereby avoiding their premature wear will.

A negative influence on the seals by transverse or

Bending forces can also no longer occur because of the wheel pressures resulting bending forces on the Eolbenstangen 26 by the pairwise arrangement the running wheels and the use of a pendulum axle can be safely avoided.

The advantages achieved with the invention therefore exist essentially is that the life of the seals of the actuating means by rotating their Piston rods and transverse forces acting on the latter are not impaired can. Further advantages are the optimal adaptability of the chassis the respective ground conditions and a large steering angle of the wheels, which a turning of the crusher on the spot, that means minimal turning circle, enables.

Claims (5)

P A T E N T A N 5 P R Ü 0 H E f) C2 / mobile crushing plant with a movable substructure, whose wheels can be raised from the ground by adjusting means and can be lowered onto them and at least a part of its cattle by steering devices around vertical Axles are pivotable and at least a part can be driven, characterized in that that the adjusting means (24) for sieving and lowering the feet (11 12) and the steering devices (29) designed as separate units for pivoting the wheels (14) are. 2. Crushing plant according to claim 1, characterized in that the wheels (arc) Daarweise are mounted on pendulum axles (15) and the adjusting means (24) indirectly attack the pendulum axles (15). Crushing plant according to Claim 2, characterized in that the adjusting means (24) a hydraulic cylinder-piston system assigned to each pendulum axle (15) (25,26) include. 4. Crushing plant according to claims 1 to 3, characterized in that that each steering device (29) has a vertical axis fixed in the substructure (1) (22) is assigned, on which a carrier (20) is rotatably arranged, on which a lever (19) is pivotably mounted, which receives the pendulum axis (15), the last (15) associated cylinder-piston system (25,26) with its one End hinged to the carrier (20) and at its other end to the lever (19) is. 5. Crushing plant according to claim 1, characterized in that the steering devices (29) are designed to pivot the wheels (14) or pendulum axles (15) to 1800.